Reactions between Tunichrome Mm-1, a Tunicate Blood Pigment, and

Spectrophotometric studies of reactions between tunichrome Mm-1 and VV or VIV ions were conducted in vitro in various media to crudely approximate cel...
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Biochemistry 1996, 35, 8640-8650

Reactions between Tunichrome Mm-1, a Tunicate Blood Pigment, and Vanadium Ions in Acidic and Neutral Media† Daniel E. Ryan,* Kathryn B. Grant, and Koji Nakanishi Department of Chemistry, Columbia UniVersity, New York, New York 10027 ReceiVed September 8, 1995; ReVised Manuscript ReceiVed April 25, 1996X

ABSTRACT:

Tunichromes are yellow, polyphenolic tripeptides prevalent in blood cells of tunicates (suborders phlebobranchia and stolidobranchia). Spectrophotometric studies of reactions between tunichrome Mm-1 and VV or VIV ions were conducted in Vitro in various media to crudely approximate cellular conditions: deionized water, aqueous methanol, and aqueous buffers at pH 2 and 7. Catechol was used in parallel studies for comparison to tunichrome and was found to be a good model for tunichrome reactivity. For VIV in pH 7 buffer, both catechol and Mm-1 formed complexes with VIV ions, and no redox products were found. For VV in pH 2 buffer, both catechol and Mm-1 were oxidized by VV ions. Room temperature EPR qualitatively showed that Mm-1 in pH 2 buffer reduced VV ions to free VIV ions. For VV in pH 7 buffer, Mm-1 was oxidized by VV ions and formed VIV complexes. At higher concentrations, the VIV complexes were observed by low temperature EPR [Grant, K. B. (1994) Dissertation, Columbia University; Grant, K. B., et al. (1996) J. Inorg. Biochem. (manuscript in preparation)]. Using a colorimetric assay for VIII, we found that reactions between Mm-1 and VV or VIV ions in pH 7 buffer clearly did not generate appreciable quantities of VIII products. Thus, the colorimetric VIII assay resolved the issue of VIII product formation raised in EPR studies of Mm-1 [cf. Ryan, D. E., et al. (1992) Biochemistry 35, 8651-8661]. Overall, the results provide insights into tunichrome-vanadium chemistry and identify conditions which promote complexation and/or redox reactions in Vitro.

Tunicates (ascidians, sea squirts; phylum Chordata, class Ascidiacea) are sessile, marine filter-feeders that are intriguing to biologists as representatives of very early chordates and to chemists since Henze discovered that tunicate blood cells harbor large quantities of oxygen-sensitive VIII (Henze, 1911). Surveys of over 50 species found correlations between ascidian suborder and transition metal accumulation: phlebobranchs accumulate VIII predominantly, aplousobranchs accumulate VIV, and stolidobranchs are FeII accumulators (Swinehart et al., 1974; Hawkins et al., 1983a). Recently, VIII accumulation was discovered in one other eukaryote, the marine fan worm Pseudopotamilla occelata (phylum Annelida, class Polychaeta), in which VIII is located in the epidermis of the branchial crown (Ishii et al., 1993). In the fan worm and in phlebobranchs, the biological role of VIII remains an enigma. Vanadium-accumulating tunicates collect the metal ions from sea water, where low concentrations (10-40 nM) are present as monomeric vanadate ions (H2VO4-/HVO42-) in the VV oxidation state (Kustin et al., 1975; Jaendel et al., 1987). Vanadate anions are transported into ascidian blood cells via facilitated diffusion utilizing the phosphate transport system (Dingley et al., 1981). After transport, vanadate anions are reduced to VIVO and/or VIII cations. Blood cells of Ascidia nigra and Ascidia ceratodes possess predominantly VIII ions, as well as low levels of VIV ions (